Framework for a savanna burning emissions abatement methodology applicable to fire-prone miombo woodlands in southern Africa

Jeremy Russell-Smith*, Cameron Yates, Roland Vernooij, Tom Eames, Diane Lucas, Keddy Mbindo, Sarah Banda, Kanembwa Mukoma, Adrian Kaluka, Alex Liseli, Jomo Mafoko, Othusitse Lekoko, Robin Beatty, Mirjam Kaestli, Guido van der Werf, Natasha Ribeiro

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

1 Citation (Scopus)

Abstract

Background and aims. To assess development of a robust emissions accounting framework for expansive miombo woodland savannas covering ~2 million km2 of southern Africa that typically are burnt under relatively severe late dry season (LDS) conditions. Methods. A detailed site-based study of fuel accumulation, combustion and greenhouse gas (GHG) emission factor parameters under early dry season (EDS) and LDS conditions along a central rainfall-productivity and associated miombo vegetation structural and floristics gradient, from lower rainfallsites in northern Botswana to higher rainfall sites in northern Zambia. Key results. Assembled field data inform core components of the proposed emissions reduction framework: fuel and combustion conditions sampled across the vegetation/productivity gradient can be represented by three defined Vegetation Fuel Types (VFTs); fuel accumulation, combustion and emissions parameters are presented for these. Applying this framework for an illustrative case, GHG emissions (t CO2-e) from EDS fires were one-third to half those of LDS fires per unit area in eligible miombo VFTs. Conclusions. Our accounting framework supports undertaking EDS fire management to significantly reduce emissions and, realistically, burnt extent at landscape scales. We consider application of presented data to development of formal emissions abatement accounting methods, linkages with potential complementary woody biomass and soil organic carbon sequestration approaches, and necessary caveats concerning implementation issues.

Original languageEnglish
Article numberWF23193
JournalInternational Journal of Wildland Fire
Volume33
Issue number5
DOIs
Publication statusPublished - 3 May 2024

Keywords

  • carbon markets
  • emission factors
  • fire management
  • fuel accumulation
  • fuel combustion
  • greenhouse gases
  • miombo

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